A solid cube of side a density d and spe...

A solid cube of side a density d and specific heat s is at temperature 400 K it is placed in an ambient temperature of 200 K take `a=0.9m,d=4.8xx10^(3)kg//m^(3),s=2.0xx10^(3)J//kg//K` stefan's constant `sigma=6xx10^(-8)W//K^(4)-m^(2)` consider the cube to be a blakc body. if the time for the temperature of the cube to drop by 5 K is 1000 X seconds, find X in nearest integer.

Similar Questions

Explore conceptually related problems

Consider the sun to be a perfect sphere of radius 6.8 xx 10^(8)m . Calculate the energy radiated by sun in one minute. Surface temperature of the sun = 6200 K . Stefan's constant = 5.67 xx 10^(-8) J m^(-2) s^(-1) K^(-4) .

Calculate the temperature at which a perfect black body radiates at the rate of 1 W cm^(-2) , value of Stefan's constant, sigma = 5.67 xx 10^(-8) W m^(-2)K^(-4)

The value of Stefan's constant is sigma =5.76xx 10^(-8) J s^(-1) m^(-2)K^(-4). Find its value in cgs system.

Calculate the temperature at which a perfect black body radiates at the rate of 1 W cm^(-2) , value of Stefan's constant, sigma = 5.67 xx 10^(-5) W m^(-2) K^(-8)

Calculate the amount of heat radiated per second by a body of surface are 10 cm^(2) kept in thermal equilibrium in a roomat temperature 27^(@)C . The emissivity of the surface = 0.80 and Stefan's constant sigma ~= 6 xx 10^(-8) W//m^(2) K^(4)

If at temperature T_(1) = 1000 K the wavelength is 1.4 xx 10^(-6)m then at what temperature the wavelength will be m 2.8 xx 10^(-6)m

A 10w electric bulb has tungsten filament of surface area 5 xx 10^(-5) m^2 . What is the temperature of the filament when incandescent ? Emissivity of the filament is 0.35 and Stefan's constant is 5.67 xx 10^(-8) Jm^(-2) s^(-1) k^(-4) .

A body having a surface area of 5.0" cm"^(2) , radiates 300 J of energy per minute at a temperature of 727^(@)C . The emissivity of the body is (Stefan.s constant =5.67xx10^(-8)W//m^(2)//K^(4) )

Similar Questions

Recommended Questions